CN217070975U - Motor shaft raw and other materials circular sawing machine - Google Patents

Abstract

The utility model relates to a motor shaft raw material circular sawing machine, which comprises a circular sawing machine, a feeding device and a discharging device, wherein the feeding device comprises a frame and a plurality of material lifting mechanisms, a feeding area and a material placing area are arranged on the frame, and the plurality of material lifting mechanisms are arranged between the feeding area and the material placing area; the blanking device comprises a transmission frame, a pushing mechanism and a blanking frame; a transmission device is arranged in the transmission frame; the pushing mechanism is arranged on one side of the middle part of the transmission frame; an inclined plate is welded between the blanking frame and the transmission frame; the inclined plate corresponds to the material pushing plate. The utility model discloses an on lifting the material mechanism and automatically removing the cylinder with the round steel from the support frame, make things convenient for the feed, through pushing equipment and stock stop, with round steel and the stub bar separation after cutting, through the position of hall sensor detection stub bar and round steel, control first cylinder and second cylinder, conveniently carry out automatic unloading to the round steel, improved work efficiency, degree of automation is high.

Description

Motor shaft raw and other materials circular sawing machine

Technical Field

The utility model relates to a circular sawing machine equipment technical field, especially a motor shaft raw and other materials circular sawing machine.

Background

The motor shaft is an important part in the motor and is used as a link for electromechanical energy conversion between the motor and equipment, supporting rotating parts, transmitting torque and determining the relative position of the rotating parts to the stator. The motor shaft is formed by round steel processing, and the round steel of general enterprise purchase is longer, needs cut the round steel, because the round steel stub bar and the material tail of purchase when transporting, can be collided with, consequently also need cut stub bar and material tail. When a general circular sawing machine is used for cutting round steel with long length and large mass, the feeding mode is inconvenient, and during blanking, the stub bar tail and the cut round steel are blanked together, so that the round steel cannot be accurately separated.

Therefore, it is desirable to provide a circular saw machine that is automatically fed and accurately separated from the material.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a motor shaft raw and other materials circular sawing machine can automatic feed, and round steel that stub bar, material tail and cutting were accomplished is the unloading respectively.

In order to achieve the aim of the utility model, a circular sawing machine for raw materials of a motor shaft is provided, which comprises a circular sawing machine, a feeding device and a discharging device,

the feeding device comprises a rack and a plurality of lifting mechanisms, the rack is arranged on one feeding side of the circular sawing machine, a feeding area and a material placing area are arranged on the rack, and the plurality of lifting mechanisms are arranged between the feeding area and the material placing area;

the material lifting mechanism comprises a material lifting plate and a telescopic device; the material lifting plate is in a sickle shape; the material lifting plate is vertically arranged in the feeding area, and one end, close to the material placing area, of the material lifting plate extends into the material placing area; a connecting block is arranged on the rack on one side of the material lifting plate; one end of the material lifting plate is rotatably connected with the connecting block; the telescopic device is hinged with the inside of the frame; the other end of the material lifting plate is connected with the telescopic device;

the blanking device comprises a transmission frame, a pushing mechanism and a blanking frame; the transmission frame is fixed on one side of the circular sawing machine for blanking; a transmission device is arranged in the transmission frame; the pushing mechanism is arranged on one side of the middle part of the transmission frame; the pushing mechanism comprises a pushing plate and a first air cylinder; the material pushing plate is vertically arranged above the transmission frame; the first air cylinder is arranged on one side, away from the transmission frame, of the material pushing plate; the front end cover of the first cylinder is connected with the middle part of the material pushing plate; a first cylinder fixing frame is connected below the first cylinder; the first cylinder fixing frame is connected with the transmission frame;

the blanking frame is fixed on one side of the transmission frame, which is far away from the material pushing mechanism; the blanking frame is lower than the transmission frame; an inclined plate is welded between the blanking frame and the transmission frame; the inclined plate corresponds to the material pushing plate.

Preferably, a plurality of rollers are arranged in the feeding area in parallel through bearing seats; the material lifting plate is parallel to the roller; a plurality of support frames are arranged in the material placing area, the support frames are parallel to the roller, the top surface of each support frame is at a certain angle, and a limit block is arranged above each support frame and close to one side of the roller; the material lifting plate is lower than the support frame.

Preferably, the top of the material lifting plate is provided with a limiting part above the roller; the limiting part is lower than the top of the material lifting plate.

Preferably, the material loading area is far away from one side of the material placing area and is provided with a material blocking frame, and an anti-collision plate is installed on one side, close to the limiting block, of the material blocking frame.

Preferably, the transmission device comprises a chain plate conveying belt; and a driving motor is fixed in the transmission frame and is connected with the chain plate conveying belt through a transmission belt and a transmission shaft.

Preferably, the blanking device further comprises a material blocking mechanism, and the material blocking mechanism comprises a second cylinder and a material blocking plate; a second cylinder fixing frame is vertically fixed at one end of the transmission frame, which is far away from the circular sawing machine; the second cylinder is vertically fixed on one side, close to the material pushing mechanism, of the second cylinder fixing frame; the striker plate is vertically arranged on the chain plate conveying belt and is connected with the front end cover of the second air cylinder.

Preferably, both sides of the material baffle are provided with limit frames; a limiting groove is vertically formed in one side, opposite to the limiting frame, of the limiting frame; the striker plate is arranged in the limit groove.

Preferably, one end of the transmission frame, which is far away from the circular sawing machine, is obliquely provided with a discharging plate, and the discharging plate extends towards the outer side of the transmission frame; and a waste box is arranged below the discharge plate.

Preferably, a hall sensor is arranged on one side of the transmission frame between the material pushing plate and the material blocking plate.

Preferably, guard plates are vertically arranged on the edges above the inclined plate and the blanking frame.

The utility model relates to a motor shaft raw and other materials circular sawing machine compares with prior art and has following advantage:

(1) round steel is automatically moved to the roller from the supporting frame through the material lifting mechanism, so that feeding is facilitated;

(2) the cut round steel is separated from the stub bar through the material pushing mechanism and the material blocking mechanism, and the positions of the stub bar and the round steel are detected through the metal sensor, so that the first air cylinder and the second air cylinder are conveniently controlled;

(3) the design is simple, easy to use, and low in manufacturing cost.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a feeding device;

FIG. 3 is a schematic structural view of a material lifting mechanism;

FIG. 4 is a schematic view of a blanking device;

fig. 5 is a schematic structural diagram of the pushing mechanism and the material blocking mechanism.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in figure 1, the circular saw machine for raw materials of the motor shaft comprises a circular saw machine 1, a feeding device and a discharging device,

as shown in fig. 1 to 3, the feeding device includes a frame 21 and a plurality of lifting mechanisms 22, the frame 21 is disposed on a feeding side of the circular saw machine 1, a feeding area 211 and a material placing area 212 are disposed on the frame 21, and the plurality of lifting mechanisms 22 are disposed between the feeding area 211 and the material placing area 212, where the material placing area 212 is used for placing round bars to be cut, and the round bars in the material placing area 212 are moved into the feeding area 211 by the plurality of lifting mechanisms 22 and are clamped by a clamping device of the circular saw machine 1 into the circular saw machine 1;

a plurality of rollers 2111 are arranged in the feeding area 211 in parallel through a bearing seat 2112, the direction of each roller 2111 is perpendicular to the feeding direction of round steel, and the rollers 2111 reduce friction when the round steel moves and facilitate the movement of the round steel; a plurality of supporting frames 2121 are arranged in the material placing area 212 and used for placing a plurality of round steel to be fed, the supporting frames 2121 are parallel to the roller 2111, the top surfaces of the supporting frames 2121 are at a certain angle, one side close to the roller 2111 is lower than one side far away from the roller 2111, so that the round steel can be conveniently rolled to one side close to the material loading area 211 in sequence, a limiting block 2122 is arranged above the supporting frames 2121 and close to one side of the roller 2111 and used for blocking the round steel, the plurality of round steel can be conveniently placed on the supporting frames 2121, and the round steel is prevented from rolling into the material loading area 211; placing a plurality of round steel to be sawn on a support frame 2121, wherein the round steel is blocked by a limiting block 2122 on the support frame 2121, lifting the round steel onto a roller 2111 by a lifting mechanism 22, clamping the round steel by a clamping device of the circular sawing machine 1, and moving the clamping device to drive the round steel to move into the circular sawing machine 1;

the material lifting mechanism 22 comprises a material lifting plate 221 and a telescopic device 222; the lifting plate 221 is in a sickle shape; the material lifting plate 221 is vertically arranged in the feeding area 211, and one end, close to the material placing area 212, of the material lifting plate 221 extends into the material placing area 212; the material lifting plate 221 is lower than the support bracket 2121, the length of the material lifting plate 221 in the material placing area 212 is approximately equal to the diameter of one round steel, and only one round steel can be conveniently lifted; the material lifting plate 221 is parallel to the roller 2111; a connecting block 223 is arranged on the frame 21 at one side of the material lifting plate 221; one end of the material lifting plate 221 is rotatably connected with the connecting block 223; the telescopic device 222 is hinged with the inside of the frame 21, wherein the telescopic device 222 is an air cylinder or a hydraulic cylinder; the other end of the material lifting plate 221 is connected with the telescopic device 222, when round steel is in contact with the limiting block 2122, the material lifting plate 221 is located below the round steel, the telescopic device 222 is started to enable one end of the material lifting plate 221 to be lifted, the round steel is lifted by the material lifting plate 221, after the round steel is higher than the limiting block 2122, the round steel rolls into the feeding area 211 along the material lifting plate 221, and when the telescopic device 222 retracts, the material lifting plate 221 descends, and the round steel falls onto the roller 2111;

in order to prevent the round steel from rolling back out of the roller 2111 when the material lifting plate 221 descends, a limiting portion 2211 is arranged above the roller 2111 at the top of the material lifting plate 221; the limiting portion 2211 is lower than the top of the material lifting plate 221 in height, when one end of the material lifting plate 221 rises to lift round steel, the round steel rolls on the material lifting plate 221 to the feeding area 211 and rolls above the roller 2111 to fall onto the limiting portion 2211, and as the material lifting plate 221 descends, the round steel is blocked by the end, higher than the material lifting plate 221, of the round steel and then falls onto the roller 2111.

In order to prevent round steel from rolling out of the feeding area 211, a material blocking frame 2123 is arranged on one side of the feeding area 211, which is far away from the material placing area 212, after the round steel is lifted by the material lifting plate 221, the round steel rolls along the material lifting plate 221, the round steel is blocked by the material blocking frame 2123, and the round steel keeps parallel, and as the round steel is hit once when the material lifting plate 221 is lifted once, an anti-collision plate 2124 is arranged on one side of the material blocking frame 2123, which is close to the limiting block 2122, so that the service life of the material blocking frame 2123 is prolonged;

as shown in fig. 4-5, the blanking device includes a transmission frame 31, a material pushing mechanism and a blanking frame 33; the transmission frame 31 is fixed on one side of the circular sawing machine 1 for blanking; a transmission device is arranged in the transmission frame 31 and can convey cut round steel to the outer side of the circular sawing machine 1; the transmission device comprises a chain plate conveying belt 311; a driving motor 312 is fixed in the transmission frame 31, the driving motor 312 is connected with the chain plate conveying belt 311 through a transmission belt and a transmission shaft, and the driving motor 312 is started to drive the chain plate conveying belt 311 to move;

the pushing mechanism is arranged on one side of the middle part of the transmission frame 31; the pushing mechanism comprises a pushing plate 321 and a first cylinder 322; the material pushing plate 321 is vertically arranged on the transmission frame 31, the material pushing plate 321 is parallel to the transmission direction of the transmission device, and the material pushing plate 321 is horizontal to the round steel on the chain plate conveying belt 311; the first cylinder 322 is arranged on one side of the material pushing plate 321 away from the transmission frame 31; the front end cover of the first cylinder 322 is connected with the middle part of the material pushing plate 321, the first cylinder 322 is preferably a double-shaft cylinder, and after the first cylinder 322 is started, a piston rod of the first cylinder 322 extends out to push the material pushing plate 321 and push round steel on the chain plate conveying belt 311 out of the transmission frame 31; a first cylinder fixing frame 323 is connected below the first cylinder 322 and used for fixing the first cylinder 322; the first cylinder fixing frame 323 is connected with the transmission frame 31;

the blanking frame 33 is fixed on one side of the transmission frame 31 far away from the material pushing mechanism; the blanking frame 33 is lower than the transmission frame 31; an inclined plate 34 is welded between the blanking frame 33 and the transmission frame 31; the inclined plate 34 corresponds to the material pushing plate 321, and after the round steel is pushed out by the material pushing plate 321, the round steel falls onto the blanking frame 33 through the inclined plate 34.

The blanking device 3 further comprises a material blocking mechanism 35 in the embodiment, and the material blocking mechanism 35 comprises a second cylinder 351 and a material blocking plate 352; a second cylinder fixing frame 353 is vertically fixed at one end of the transmission frame 31, which is far away from the circular sawing machine 1; the second cylinder 351 is vertically fixed on one side of the second cylinder fixing frame 353 close to the material pushing mechanism; the material blocking plate 352 is vertically arranged above the chain plate conveying belt 311 and connected with a front end cover of the second cylinder 351, the second cylinder 351 is started, the material blocking plate 352 can move downwards, round steel is blocked by the material blocking plate 352, the driving motor 312 is not stopped when pushing materials conveniently, the round steel is prevented from flying out of the transmission frame 31 along with the chain plate conveying belt 311, when the round steel is cut, the second cylinder 351 is started, the material blocking plate 352 moves downwards, when a stub bar and cut round steel move to the front of the material blocking plate 352, the material blocking plate 352 blocks the stub bar, the first cylinder 322 is started to sequentially push out each section of round steel, when a tail moves to the side of the stub bar, the second cylinder 351 retracts, the material blocking plate 352 ascends, and the stub bar and the tail move to the outer side of the transmission frame 31 along with the conveying belt 311.

In this embodiment, both sides of the striker plate 352 are provided with a limiting frame 354; a limiting groove 3541 is vertically formed in one side, opposite to the limiting frame 354; the striker plate 352 is arranged in the limit groove 3541, the striker plate 352 is kept in a vertical state when the stop is convenient, and the second cylinder 351 is prevented from being damaged when a stub bar and round steel collide against the striker plate 352.

In this embodiment, a discharge plate 313 is obliquely arranged at one end of the transmission frame 31 away from the circular saw machine 1, and the discharge plate 313 extends towards the outer side of the transmission frame 31; a waste box 314 is arranged below the discharge plate 313, and the head and the tail of the material fall onto the discharge plate 313 after moving to one end of the transmission frame 31 along with the chain plate conveyor belt 311 and then fall into the waste box 314 along with the discharge plate 313.

In this embodiment, a hall sensor 315 is disposed on one side of the transmission frame 31 between the material pushing plate 321 and the material blocking plate 352, so as to detect metal on the link conveyer belt 311, when the stub bar and the hall sensor 315 are on the same horizontal line, the hall sensor 315 transmits a signal to a controller, and the controller controls to open the second cylinder 351 and the first cylinder 322.

In this embodiment, the guard plates 341 are vertically arranged above the inclined plate 34 and on the upper edge of the blanking frame 33, so as to prevent round steel from rolling out of the outer side.

The utility model discloses application method: placing a plurality of round steel to be cut on a support 2121 of a material placing area 212, opening a telescopic device 222 to enable one end of a material lifting plate 221 to rise, lifting the round steel contacted with a limiting block 2122 by the material lifting plate 221, enabling the round steel to roll into the material loading area 211 after being higher than the limiting block 2122, lowering the material lifting plate 221 when the telescopic device 222 retracts, enabling the round steel to fall onto a roller 2111, clamping the round steel by a clamping device of the circular saw 1 to enable the round steel to enter the circular saw 1, cutting a stub bar of the round steel by the circular saw 1, then cutting the round steel into a plurality of sections of round steel, finally cutting a tail of the round steel, pushing the cut round steel into a chain plate conveying belt 311, starting a driving motor 312, enabling the conveying belt 311 to move, starting a second air cylinder 351 before the stub bar and the round steel move to the circular saw 352, stopping the stub bar 352 to descend, stopping the stub bar, starting a first air cylinder 322, pushing plate 321 pushing each section of the round steel onto an inclined plate 34, then the material falls into the blanking frame 33, the last material tail moves to the material head along with the chain plate conveying belt 311, the second air cylinder 351 retracts, the material baffle 352 ascends, and the material head and the material tail fall onto the material discharging plate 313 along with the chain plate conveying belt 311 and then fall into the waste bin 314.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the embodiments disclosed, but is capable of numerous equivalents and substitutions without departing from the spirit of the invention, and such equivalents and substitutions are intended to be included within the scope of the invention as defined by the appended claims.

Claims (10)

1. A circular saw machine for motor shaft raw material is characterized by comprising a circular saw machine, a feeding device and a discharging device,

the feeding device comprises a rack and a plurality of lifting mechanisms, the rack is arranged on one feeding side of the circular sawing machine, a feeding area and a material placing area are arranged on the rack, and the plurality of lifting mechanisms are arranged between the feeding area and the material placing area;

the material lifting mechanism comprises a material lifting plate and a telescopic device; the material lifting plate is vertically arranged in the feeding area, and one end, close to the material placing area, of the material lifting plate extends into the material placing area; a connecting block is arranged on the rack on one side of the material lifting plate; one end of the material lifting plate is rotatably connected with the connecting block; the telescopic device is hinged with the inside of the frame; the other end of the material lifting plate is connected with the telescopic device;

the blanking device comprises a transmission frame, a pushing mechanism and a blanking frame; the transmission frame is fixed on one side of the circular sawing machine for blanking; a transmission device is arranged in the transmission frame; the pushing mechanism is arranged on one side of the middle part of the transmission frame; the pushing mechanism comprises a pushing plate and a first air cylinder; the material pushing plate is vertically arranged above the transmission frame; the first air cylinder is arranged on one side, away from the transmission frame, of the material pushing plate; the front end cover of the first cylinder is connected with the middle part of the material pushing plate; a first cylinder fixing frame is connected below the first cylinder; the first cylinder fixing frame is connected with the transmission frame;

the blanking frame is fixed on one side of the transmission frame, which is far away from the material pushing mechanism; the blanking frame is lower than the transmission frame; an inclined plate is welded between the blanking frame and the transmission frame; the inclined plate corresponds to the material pushing plate.

2. The circular saw machine for motor shaft raw materials as claimed in claim 1, wherein a plurality of rollers are arranged in parallel in the loading area through bearing seats; the material lifting plate is parallel to the roller; a plurality of support frames are arranged in the material placing area, the support frames are parallel to the roller, the top surface of each support frame is at a certain angle, and a limit block is arranged above each support frame and close to one side of the roller; the material lifting plate is lower than the support frame.

3. The circular saw machine for motor shaft raw materials as claimed in claim 2, wherein a limiting portion is formed at the top of the material lifting plate above the drum; the limiting part is lower than the top of the material lifting plate.

4. The circular saw machine for motor shaft raw materials as claimed in claim 2 or 3, wherein a material blocking frame is arranged on one side of the material loading area, which is far away from the material placing area, and an anti-collision plate is arranged on one side of the material blocking frame, which is close to the limiting block.

5. A circular saw machine for motor shaft raw material as claimed in claim 1, wherein said transmission means includes a chain plate conveyor belt; and a driving motor is fixed in the transmission frame and is connected with the chain plate conveying belt through a transmission belt and a transmission shaft.

6. The circular saw machine for motor shaft raw materials as claimed in claim 5, wherein the blanking device further comprises a material blocking mechanism, the material blocking mechanism comprises a second cylinder and a material blocking plate; a second cylinder fixing frame is vertically fixed at one end of the transmission frame, which is far away from the circular sawing machine; the second cylinder is vertically fixed on one side, close to the material pushing mechanism, of the second cylinder fixing frame; the striker plate is vertically arranged on the chain plate conveying belt and is connected with the front end cover of the second air cylinder.

7. The circular saw machine for motor shaft raw materials as claimed in claim 6, wherein both sides of the material baffle plate are provided with limit frames; a limiting groove is vertically formed in one side, opposite to the limiting frame, of the limiting frame; the striker plate is arranged in the limit groove.

8. The circular saw machine for motor shaft raw material as claimed in claim 6 or 7, wherein an end of the transmission frame away from the circular saw machine is provided with a discharge plate in an inclined manner, and the discharge plate extends towards the outer side of the transmission frame; and a waste box is arranged below the discharge plate.

9. The circular saw machine for motor shaft raw material as claimed in claim 6 or 7, wherein a hall sensor is provided on one side of the transmission frame between the material pushing plate and the material blocking plate.

10. The circular saw machine for motor shaft raw material as claimed in claim 1, wherein the upper edge of the sloping plate and the upper edge of the blanking frame are vertically provided with a guard plate.

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